Nerves look blue in the reconstructed view of a genetically engineered mouse (left) whose neurons produce a fluorescent ...

Rats exhibit significant recovery of locomotor function following incomplete spinal cord injuries, albeit with altered gait expression and reduced speed and stepping frequency. These changes likely ...

Brain imaging in MSA revealed that distinct cerebellar and medullary atrophy patterns were closely linked to cardiovascular ...

Researchers at Chalmers University of Technology in Sweden and the University of Auckland in New Zealand have developed a groundbreaking bioelectric implant that restores movement in rats after ...

Background Thrombus radiomics (TR) describe complex shape and textural thrombus imaging features. We aimed to study the relationship of TR extracted from non-contrast CT with procedural and functional ...

Spinal cord compression produces edema, inflammation, and mechanical compression, which causes direct neural injury to the cord, as well as vascular damage and impairment of oxygenation.

Atlantoaxial dislocation Spinal cord injury: Damage to the spinal cord, potentially resulting in numbness, weakness, or paralysis. Herniated discs: Manipulation can exacerbate existing disc issues or ...

Spinal muscular atrophy (SMA) is an autosomal recessive genetic disease that causes progressive degeneration of motor neurons, affecting approximately 1 in 10,000 births.

MS Spinal Cord Lesions: Everything You Need to Know Spinal cord lesions are more commonly seen in progressive forms of multiple sclerosis, and they can result in an increased risk of disability.

Tiny, zapping implant gives spinal cord injury survivors new hope UT Dallas researchers paired rehab with vagus nerve stimulation to help people with spinal cord injuries regain arm and hand mobility.

Results The spinal cord increased in length from 50 to 93 mm, the spine from 57 to 137 mm, and the medullary cone rose from S1 to L2. The rate of growth was 1.2 mm/day for the spine and 0.6 mm/day for ...

Key takeaways: There is an urgent need to enable functional recovery in people with spinal cord injuries. The goal of NVG-291’s development is to improve neural connections in humans with SCI.